F. P. Rosselli scite author profile

A quantitative structure-activity relationship (QSAR) study of 19 quinone compounds with trypanocidal activity was performed by Partial Least Squares (PLS) and Principal Component Regression (PCR) methods with the use of leave-one-out crossvalidation procedure to build the regression models. The trypanocidal activity of the compounds is related to their first cathodic potential (Ep c1 ). The regression PLS and PCR models built in this study were also used to predict the Ep c1 of six new quinone compounds. The PLS model was built with three principal components that described 96.50% of the total variance and present Q 2 = 0.83 and R 2 = 0.90. The results obtained with the PCR model were similar to those obtained with the PLS model. The PCR model was also built with three principal components that described 96.67% of the total variance with Q 2 = 0.83 and R 2 = 0.90. The most important descriptors for our PLS and PCR models were HOMO-1 (energy of the molecular orbital below HOMO), Q4 (atomic charge at position 4), MAXDN (maximal electrotopological negative difference), and HYF (hydrophilicity index).

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Molecular hyperfine fields in organic magnetoresistance devices

Giro

Rosselli

Carvalho

et al. 2013

Phys. Rev. B

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Quantum chemical and statistical study of megazol‐derived compounds with trypanocidal activity

Rosselli

Albuquerque

Silva

2005

Int J of Quantum Chemistry

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ABSTRACT:In this work we performed a structure-activity relationship (SAR) study with the aim to correlate molecular properties of the megazol compound and 10 of its analogs with the biological activity against Trypanosoma cruzi (trypanocidal or antichagasic activity) presented by these molecules. The biological activity indication was obtained from in vitro tests and the molecular properties (variables or descriptors) were obtained from the optimized chemical structures by using the PM3 semiempirical method. It was calculated ϳ80 molecular properties selected among steric, constitutional, electronic, and lipophilicity properties. In order to reduce dimensionality and investigate which subset of variables (descriptors) would be more effective in classifying the compounds studied, according to their degree of trypanocidal activity, we employed statistical methodologies (pattern recognition and classification techniques) such as principal component analysis (PCA), hierarchical cluster analysis (HCA), K-nearest neighbor (KNN), and discriminant function analysis (DFA). These methods showed that the descriptors molecular mass (MM), energy of the second lowest unoccupied molecular orbital (LUMOϩ1), charge on the first nitrogen at substituent 2 (qNЈ), dihedral angles (D1 and D2), bond length between atom C4 and its substituent (L4), Moriguchi octanol-partition coefficient (MLogP), and length-to-breadth ratio (L/Bw) were the variables responsible for the separation between active and inactive compounds against T. cruzi. Afterwards, the PCA, KNN, and DFA models built in this work were used to perform trypanocidal activity predictions for eight new megazol analog compounds.

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F. P. Rosselli

Experimental and theoretical investigation of tris-(8-hydroxy-quinolinate) aluminum (Alq3) photo degradation

A partial least squares and principal component regression study of quinone compounds with trypanocidal activity

Molecular hyperfine fields in organic magnetoresistance devices

Quantum chemical and statistical study of megazol‐derived compounds with trypanocidal activity

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